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A Pseudomonas Profile of a General Hospital's Intensive Care Unit /Drollette, Daniel David 01 January 1970 (has links) (PDF)
No description available.
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Chemistry of a pseudomonas glycopetide demonstrating Rh₀(D) specificity /Lazen, Alvin Gordon January 1963 (has links)
No description available.
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Phage receptor site(s) in the outer envelope of Pseudomonas aeruginosa.Al-Rumaih, Sahira January 1980 (has links)
No description available.
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Génomique fonctionnelle de Pseudomonas aeruginosa et analyse moléculaire fine d'un facteur sigma-anti-sigmaPotvin, Eric. January 1900 (has links) (PDF)
Thèse (Ph. D.)--Université Laval, 2007. / Titre de l'écran-titre (visionné le 18 sept. 2007). Bibliogr.
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Avaliação da eficiencia de um esterilizador a plasma na inativação de Pseudomonas fluorescens / Evaluation of the efficiency of a plasma sterilizater in the inactivation of Pseudomonas fluorescensSenatore, Marcela Andrea Duran Haun, 1974- 16 April 2004 (has links)
Orientador: Marcelo Cristianini / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia de Alimentos / Made available in DSpace on 2018-08-03T20:56:17Z (GMT). No. of bitstreams: 1
Senatore_MarcelaAndreaDuranHaun_M.pdf: 684290 bytes, checksum: 522970fe79261c7d2890c0a19a39b587 (MD5)
Previous issue date: 2004 / Resumo: Um dos problemas que enfrenta a indústria de laticínios é a recontaminação do leite decorrente da formação de biofilmes em tanques de armazenamento e trocadores de calor. A tecnologia de esterilização de materiais por gás plasma tem sido utilizada com sucesso na esterilização de instrumentos cirúrgicos, oftálmicos e dentários. Os objetivos deste trabalho foram avaliar a eficiência de um sistema de esterilização a gás plasma sob células de Pseudomonas fluorescens aderidas em placas de aço inoxidável utilizando o leite como substrato. Foram avaliadas as variáveis tempo de pré plasma, tempo de exposição ao plasma e potência do mesmo na remoção do biofilme. As placas de aço inoxidável com a bactéria aderida foram submetidas a um tratamento com gás plasma, que foi formado a partir de um produto comercial composto por ácido peracético, peróxido de hidrogênio e ácido acético. Dois sistemas modelo foram utilizados para simular a formação de biofilmes de Pseudomonas fluorescens, um dinâmico e outro estático, simulando trocadores de calor e tanques de armazenamento, respectivamente. Através do modelo estático foi possível obter contagens acima de 105 UFC por placa de aço inoxidável, mesmo após três ciclos de lavagem das placas em água estéril sob agitação. Foi observado um efeito positivo na inativação de P. fluorescens em função do tempo de pré-plasma do sanificante. Exposições acima de 7 minutos foram capazes de produzir reduções superiores a dois ciclos logarítmicos na inativação do microrganismo. Através de um planejamento experimental fatorial 23 foi demosntrado que as variáveis tempo de pré-plasma, tempo de exposição ao plasma e potência do plasma apresentaram efeitos positivos na inativação de Pseudomonas fluorescens. O tempo de exposição (min.) apresentou o maior efeito na destruição da bactéria; mas sendo um pouco superior à potência do plasma (w) / Abstract: One of the problems that food industry is facing is the milk recontamination through biofims formation on storage tanks and heat exchanger. The technology of sterilization for materials through gas plasma has been used with succesfull for cirurgycal, ophathalmic and dentistry equipment. The goals of this work was to evaluate the efficiency of a gas plasma sterilization system on Pseudomonas fluorescens cells adhered on stainless steel plates using milk as substrate. Time of pre plasma, plasma exposition and potency (Watts) were evaluated as independent variables on cell destruction. The stainless steel plates were submitted to gas plasma treatment originated from a commercial product composed of peracetic acid, hydrogen peroxide and acetic acid. Two model systems were used to simulate a biofilm formation of Pseudomonas fluorescens, one dynamic and one static, in order to simulate heat exchangers and storage tanks, respectively. Through static model it was possible to get counts over 105 UFC/plate after washing three times using sterile water under stirring conditions. It was observed a positive effect on P. fluorescens inactivation by pre-plasma in a time dependent way. Expositions over seven minutes were capable to produce reductions higher than two logarithmic cycles on microorganism inactivation. A 23 factorial design indicated that the pre-plasma time, time exposition and potency showed positive effects on Pseudomonas fluorescens inactivation. Time exposition (min) was the most effective variable on bacteria destruction, being a little higher than plasma potency (w) / Mestrado / Mestre em Tecnologia de Alimentos
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Determination of the Complete Nucleotide Sequence of the xylZ Region of the Pseudomonas Putida TOL Plasmid pDK1, Encoding a Subunit of the Toluate Oxidase ComplexKhedairy, Hamid S. (Hamid Sabri) 05 1900 (has links)
A 1.57 kb XhoI restriction fragment derived from the TOL plasmid pDKI was subcloned into the E. Coli plasmid pUC19. The complete nucleotide sequence of this XhoI fragment was determined using both the chemical cleavage and chain termination DNA sequencing methods.
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Physical Characterization and Restriction Mapping of the Sal Plasmid From Pseudomonas PutidaAsghari, Abdolkarim 12 1900 (has links)
Physical and restriction mapping of the salicylate catabolic plasmid SAL from Pseudomonas putida strain PpG 2119 was carried out by standard multiple restriction analysis and by cross hybridization studies using radioactively labeled restriction fragment probes. The total numbers of fragments produced, their respective sizes, the arrangement of the restriction fragments on the plasmid and the map locations of the enzyme recognition sites for Hpal, Xhol, Dral and Smal are given.
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Pyrimidine Genes in Pseudomonas SpeciesRoush, Wendy A. 12 1900 (has links)
This thesis is a comparative study of gene arrangements in Pseudomonas species, and is organized into three major sections. The first section compares gene arrangements for different pathways in Pseudomonas aeruginosa PAO1 to determine if the gene arrangements are similar to previous studies. It also serves as a reference for pyrimidine gene arrangements in P. aeruginosa. The second part compares the physical, and genetic maps of P. aeruginosa PAO1 with the genome sequence. The final section compares pyrimidine gene arrangements in three species of Pseudomonas. Pyrimidine biosynthesis and salvage genes will be aligned for P. aeruginosa PAO1, P. putida KT2440, and P. syringae DC3000. The whole study will gives insight into gene patterns in Pseudomonas, with a focus on pyrimidine genes.
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Generación de cepas recombinantes de pseudomonas para la producción de etanolNavarro Pérez, Myriam Andrea 12 1900 (has links)
Magíster en Bioquímica área de Especialización en
Bioquímica ambiental / Memoria para optar al Título de
Bioquímico / Los problemas ambientales y la disminución de las reservas de petróleo han reiniciado la
búsqueda de combustibles alternativos a los combustibles fósiles. El etanol se presenta como una
alternativa sustentable para resolver esta problemática.
En la naturaleza existen microorganismos silvestres productores de etanol, tales como la
bacteria Zymomonas mobilis y la levadura Saccharomyces cerevisiae. Si bien estos dos
microorganismos son altamente eficientes en la generación de etanol, sólo son capaces de
utilizar azúcares de 6 carbonos, limitando la producción industrial de etanol solo a materias
primas que contengan hexosas.
En los residuos lignocelulósicos se encuentra una gran reserva de hidratos de carbono
almacenada como polímeros de glucosa (celulosa) o azúcares de 5 carbonos como xilosa y
arabinosa.
Para el aprovechamiento de pentosas disponibles en esta materia prima se han modificado
estos microorganismos, mediante la introducción de los genes de las enzimas necesarias para
metabolizar arabinosa y xilosa o se han incorporado los genes de las enzimas de la ruta
etanológica de Z. mobilis, piruvato descarboxilasa (pdc) y alcohol deshidrogenasa II (adhB) a
bacterias capaces de utilizar pentosas, como Escherichia coli, Klebsiella oxycota, Lactobacillus
plantarum, Lactococcus lactis y Bacillus subtilis.
El género Pseudomonas, principalmente Pseudomonas aeruginosa, posee muchas de las
características necesarias para la producción industrial de etanol, es una versátil bacteria Gram
negativo, capaz de adaptarse y sobrevivir bajo amplio rango de condiciones ambientales y al
igual que Z. mobilis asimila azúcares por la ruta de Entner-Doudoroff, además posee una
toleracia a etanol mayor que bacterias E. coli recombinantes utilizadas en la producción de
etanol.
El objetivo general de este trabajo es la construcción de un operón productor de etanol para la
expresión de los genes pdc y adhB de la ruta etanologénica de Z. mobilis en P. aeruginosa
PAO1. El diseño del operón artificial incluyó los siguientes elementos genéticos: el promotor del
operón inducible arabinosa (PBAD), sitio de unión a ribosoma (RBS), gen pdc, gen adhB y un
terminador transcripcional para P. aeruginosa.
Las primeras etapas para la construcción del operon pet, contemplaron la realización de 2
construcciones genéticas mediante PCR. La primera comprende la mínima región codificante
del gen pdc y una región adaptadora de 33 pb (adp), la segunda corresponde a la unión de adp2
(secuencia que contiene una zona complementaria a adp y un sitio de unión a ribosoma) con la
mínima región codificante del gen adhB y un terminador transcripcional específico para
Pseudomonas.
Los análisis de restricción, PCR y secuenciación mostraron la obtención de un fragmento
1740 pb correspondiente al producto pdc-adp, un fragmento de 1247 pb para el producto adp2-
adhB-term. Para los productos de PCR de la fusión de las construcciones pdc-adp con adp2-
adhB-term se obtuvieron amplicones inespecíficos de tamaños superiores e inferiores al tamaño
teórico esperado (3 Kb). De manera alternativa para la obtención de la construcción que
contenga los genes pdc y adhB con la secuencia adaptadora y de unión a ribosoma, se realizaron
reacciones de ligación de ambos fragmentos utilizando la enzima T4 DNA ligasa, las cuales
fueron clonadas en el vector pSC-B. De todos los clones analizados solo uno contenía la
construcción esperada (plasmidio pCL27-B), pero los análisis de PCR revelaron que los genes
no se encontraban en la orientación adecuada, por lo tanto no fue posible obtener la construcción
del fragmento pdc-adp-RBS-adhB, construcción clave en el término de la construcción del
operón pet. / Environmental problems and declining oil reserves have resumed the search for alternative
fuels to fossil fuels. Ethanol is presented as a sustainable alternative to solve this problem.
In nature there are wild ethanol producing microorganisms, such as bacteria Zymomonas
mobilis and yeast Saccharomyces cerevisiae. While these two microorganisms are highly
efficient in the generation of ethanol, are capable of using only 6 carbon sugars, limiting the
industrial production of ethanol only to raw material containing hexoses.
In lignocellulosic waste there is a large reservoir of stored carbohydrates like glucose
polymers (cellulose) or 5-carbon sugars such as xylose and arabinose.
For the utilization of available pentoses in this raw material, such microorganisms have been
modified by the introduction of genes of the necessary enzymes to metabolize arabinose and
xylose or enzymes genes have been incorporated of etanologic pathway from Z. mobilis,
pyruvate decarboxylase (pdc) and alcohol deshidrogenasa II (adhB) to bacteria capable to use
pentoses, such as Escherichia coli, Klebsiella oxycota, Lactobacillus plantarum, Lactococcus
lactis and Bacillus subtilis.
The genus Pseudomonas, mainly Pseudomonas aeruginosa, has many of the features
needed for industrial production of ethanol, is a versatile Gram negative bacteria, able to adapt
and survive under wide range of environmental conditions and like Z. mobilis assimilated sugars
by the Entner-Doudoroff pathway, and in addition has ethanol higher tolerance than recombined
E. coli bacteria used in the production of ethanol.
The overall aim of this work is the construction of an ethanol producer operon for the
expression of pdc and adhB genes from the Z. mobilis etanologic pathway on P. aeruginosa
PAO1.
The artificial operon design included the following genetic elements: the arabinose inducible
operon promoter (PBAD), ribosome binding site (RBS), pdc gene, adhB gene and a transcriptional
terminator to P. aeruginosa. The first step to construct the pet operon, contemplated 2 genetic constructs by PCR. The first
involves a pdc gene minimum coding region and a adapter region of 33 bp (adp), the second
corresponds to the union of adp2 (sequence that contains a complementary zone to adp and a
ribosome binding site) with adhB gene minimal encoding region and a specific transcriptional
terminator to Pseudomonas.
The restriction analysis, PCR and sequencing showed the obtention of a 1740 pb fragment
corresponding to the pdc-adp product, a 1247 pb fragment for the product adp2-adhB-term. For
the PCR products of pdc-adp and adp2-adhB-term construction fusion, non specific amplicons
were obtained in higher and lower sizes than the theoretical size expected (3 Kb). Alternatively
for the obtention of the construction which have the pdc and adhB genes with the adapter
sequence and ribosome binding, ligation reactions were performed of both fragments using T4
DNA ligase enzyme, which were cloned on the vector pSC- B. Of all the clones analyzed just
one contained the expected construction (plasmid pCL27-B), but PCR analysis revealed that
genes were not in the proper orientation, therefore it was not possible to obtain the construction
of fragment pdc-adp-RBS-adhB, key construction in the completion of the pet operon
construction.
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Regulation of alginate production of Pseudomonas aeruginosaDamron, Frederick H. January 2009 (has links)
Thesis (M.S. )--Marshall University, 2009. / Title from document title page. Includes abstract. Document formatted into pages: contains 155 p. Includes bibliographical references p. 151-152.
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